angle.rs - mozsearch

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/* This Source Code Form is subject to the terms of the Mozilla Public

 * License, v. 2.0. If a copy of the MPL was not distributed with this

 * file, You can obtain one at https://mozilla.org/MPL/2.0/. */

//! Computed angles.

use crate::values::distance::{ComputeSquaredDistance, SquaredDistance};

use crate::values::CSSFloat;

use crate::Zero;

use std::f64::consts::PI;

use std::fmt::{self, Write};

use std::{f32, f64};

use style_traits::{CssWriter, ToCss};

/// A computed angle in degrees.

#[derive(

    Add,

    Animate,

    Clone,

    Copy,

    Debug,

    Deserialize,

    MallocSizeOf,

    PartialEq,

    PartialOrd,

    Serialize,

    ToAnimatedZero,

    ToResolvedValue,

)]

#[repr(C)]

pub struct Angle(CSSFloat);

impl ToCss for Angle {

    fn to_css<W>(&self, dest: &mut CssWriter<W>) -> fmt::Result

    where

        W: Write,

        self.degrees().to_css(dest)?;

        dest.write_str("deg")

const RAD_PER_DEG: f64 = PI / 180.0;

impl Angle {

    /// Creates a computed `Angle` value from a radian amount.

    pub fn from_radians(radians: CSSFloat) -> Self {

        Angle(radians / RAD_PER_DEG as f32)

    /// Creates a computed `Angle` value from a degrees amount.

    #[inline]

    pub fn from_degrees(degrees: CSSFloat) -> Self {

        Angle(degrees)

    /// Returns the amount of radians this angle represents.

    #[inline]

    pub fn radians(&self) -> CSSFloat {

        self.radians64().min(f32::MAX as f64).max(f32::MIN as f64) as f32

    /// Returns the amount of radians this angle represents as a `f64`.

///

    /// Gecko stores angles as singles, but does this computation using doubles.

///

    /// This is significant enough to mess up rounding to the nearest

    /// quarter-turn for 225 degrees, for example.

    #[inline]

    pub fn radians64(&self) -> f64 {

        self.0 as f64 * RAD_PER_DEG

    /// Return the value in degrees.

    #[inline]

    pub fn degrees(&self) -> CSSFloat {

        self.0

impl Zero for Angle {

    #[inline]

    fn zero() -> Self {

        Angle(0.0)

    #[inline]

    fn is_zero(&self) -> bool {

        self.0 == 0.

impl ComputeSquaredDistance for Angle {

    #[inline]

    fn compute_squared_distance(&self, other: &Self) -> Result<SquaredDistance, ()> {

        // Use the formula for calculating the distance between angles defined in SVG:

        // https://www.w3.org/TR/SVG/animate.html#complexDistances

        self.radians64()

            .compute_squared_distance(&other.radians64())